Source

Using Aptus

There are two ways to use Aptus: a GUI explorer, and a command line renderer.
The GUI lets you zoom in and out, and change the color palette to find an image
you like. The command line renderer produces higher-quality images.

Parameter files

Aptus stores information about the image to display in a few ways. Small
textual .aptus files store all the parameters needed to recreate an image,
and can be saved from the GUI and fed to the command line renderer.

When saving an image as a .PNG file, Aptus also stores all its parameter
information in a text block hidden in the image, so that the .PNG can be used
directly as a parameter file.

Aptus can also read Xaos
.xpf files so that you can use Xaos to explore, and Aptus to render if you like.

GUI usage

Start Aptus with aptusgui.py, and start poking around. Left click or drag
zooms you in, right click zooms you out. Type 'h' for help on other controls.
Detailed descriptions of GUI behavior are below.

aptusgui.py also accepts applicable command-line switches so you can start it from a
parameter file, or specify the size of the window, and so on.

Command line usage

The command line renderer is called aptuscmd.py. It will accept a number of
switches or parameter files:

Options: -h, --help show this help message and exit -a ANGLE, --angle=ANGLE set the angle of rotation -b BAILOUT, --bailout=BAILOUT set the radius of the escape circle --center=RE,IM set the center of the view -c, --continuous use continuous coloring --diam=DIAM set the diameter of the view -i ITER_LIMIT, --iterlimit=ITER_LIMIT set the limit on the iteration count -o OUTFILE, --output=OUTFILE set the output filename (aptuscmd.py only) --phase=PHASE set the palette phase --pscale=SCALE set the palette scale -s WIDxHGT, --size=WIDxHGT set the pixel size of the image --super=S set the supersample rate (aptuscmd.py only)

GUI controls

The Aptus GUI is very bare: there's just an image of the Mandelbrot set, with
no visible controls. You use the mouse and keyboard to control Aptus.

Moving around

Left-clicking zooms into the set, right-clicking zooms out; clicking while
holding the Ctrl (or Cmd) key zooms just a little bit. If you drag out a
rectangle with the left mouse button, you will zoom into that rectangle, so you
have more control over exactly where you end up.

If you drag with the middle mouse button, you will drag the image, re-centering
it on a new point of interest.

The 'a' key will prompt you for a new angle of rotation for the image.

The 'n' key will open a new top-level window to explore elsewhere in the set.

Appearance

The image of the Mandelbrot set is drawn by calculating a value at each pixel,
then mapping that value to a color through a palette. The values can be discrete
or continuous — use the 'c' key to toggle between the two.

The accuracy of the black boundary of the set depends on the number of iterations
Aptus is permitted to calculate at each point. The value can be adjusted with
the 'i' key.

Aptus has handful of different palettes. Cycle through them with the '<'
(less-than) and '>' (greater-than) keys. A list of all the palettes can be
displayed with 'p'. The color mapped to each value can be shifted one color with
the ',' (comma) and '.' (period) keys. If the pixel values are continuous, then
the palette can also be scaled to change the distance between color bands
— use the ';' (semicolon) and "'" (apostrophe) keys, optionally with the
Ctrl key to change just a little.

The hue and saturation of the palette can also be shifted. The '[' and ']'
(square bracket) keys change the hue, and '{' and '}' (curly braces) change the
saturation. Both also use the Ctrl key to change just a little.

The '0' (zero) key will reset all palette adjustments.

Auxiliary windows

Aptus has a few tool windows. Each is toggled with a particular key.

'p' displays a list of all Aptus' palettes. Clicking one will change
the display to use it.

'v' displays a list of statistics about the last fractal calculation.

'q' displays information about a point in the display. Hold the shift key
and hover over a point in the image to see iteration counts, coordinates, and so on.

'l' (lowercase L) displays the You Are Here panel. It shows a series of images,
zooming in to the currently displayed view of the set. Each image has a rectangle
drawn on it corresponding to the next image in the list, so that you can see
how your close-up view in the main window relates to the larger set. Any rectangle
can be dragged to change the main window's view of the set.

Julia set

The Julia set is closely related to the Mandelbrot set. Each point in the
Mandelbrot set corresponds to a Julia set. To display the Julia set, use the 'J'
key (with the shift key). A small tool window appears. It shows the Julia set
for the current shift-hovered point in the main window. Hold the shift key and
move the mouse over the Mandelbrot set. The Julia set will change as the mouse
moves.

To further explore a particular Julia set, double-click in the Julia set window.
You'll get a new top-level window displaying the Julia set, and you can use all
the usual Aptus controls to navigate and manipulate the image.

History

Version 2.0, October 2008

Multiple top-level exploration windows.

Tool panels show supplementary information:

You Are Here shows your location in the Mandelbrot set.

Palettes panel shows all the palettes, and the one currently in use.

Statistics panel shows statistics about the latest computation.

Point Info panel shows information about the current point, shift-hover to indicate point.

Julia panel shows Julia set for the current point, shift-hover to indicate point.
Double-clicking the Julia panel opens a new exploration window to explore that Julia set.

Computation improvements:

Faster.

The exploration window updates during computation.

Continuous coloring is more accurate now: banding artifacts are gone.

When dragging the exploration window, pixels still in the window aren't re-calculated.

I was experimenting with a numpy version, and wanted to see if I could code up a faster version in C. The obligatory google search turned up your version; well done!

A segfault turned up on my amd64 machine with python 2.5: I had to change "int ncolbytes" to "Py_ssize_t ncolbytes" (line 504 in engine.c). It looks like the API for PyString_AsStringAndSize changed between python 2.4 and 2.5...

@Chetan: the problem is a DOS line-ending in the aptusgui.py file (and aptuscmd.py). I'll post a new kit shortly with the problem fixed. In the meantime, you can either edit the file yourself, or run the commands as "python /path/to/your/aptusgui.py"

Chetan Nichkawde 6:15 AM on 3 Apr 2008

Thanks! Its works. Great piece of art.

Albino 1:17 PM on 1 Apr 2009

I've installed your app, however, there is no aptusgui.py nor aptuscmd.py in the aptus folder in the site-packages directory. Is there any problem with the installer or is it incompatible with windows vista?

I don't know what the error "RuntimeError: Failed to gain raw access to bitmap data" means. It's used for any error encountered while creating a raw bitmap, so it could be a low-memory situation.

James Pannozzi 4:48 PM on 9 Nov 2010

This comment in the wrong place but anyway, saw your apl1 and apl2.png in /pix. I experiment with APL2 now and then, it's interesting.
Any more sample code please post. Am using APL2/PC DOS, with various tricks on Linux dosbox, have a 32 Meg workspace.
Python code here interesting too. Heard that BM passed away, too bad, amazing guy.

Anandaram 12:28 AM on 11 Feb 2011

Hello:
I tried to install Aptus.exe file in Windows.
It refused saying python25 was required. But I have python26
as part of pythonxy 2.6.5.6 which works well in my Win 7 OS.
So can you make Aptus run in py2.6/2.7 etc?
Thank you
Anandaram

Nice, worked out of the box. The only modification I can think of (and don't know how to implement off the bat), is that it would be nice if places where it's gray (because there's too many color changes happening to keep up, could be made black and antialiased).